The Effect of Blood Carboxyhemoglobin Levels on Total Antioxidant (Tas), Total Oxidant(Tos), Hypoxia Inducible Factor-1a (hif1a) During Low-flow and Normal-flow Anesthesia

Study Results

Results pending

The study team has not published outcome measurements, participant flow, or safety data for this trial yet. Check back later for updates.

Basic Information

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Recruitment Status

COMPLETED

Total Enrollment

130 participants

Study Classification

OBSERVATIONAL

Study Start Date

2023-01-02

Study Completion Date

2024-06-02

Brief Summary

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In contrast to toxic CO concentrations, low-dose CO acts as a signaling molecule and can exert many complex cytoprotective effects. Therefore, the effects of low-dose CO are being investigated and developed as a new treatment method for use in various disease processes. However, these studies are mostly in vivo and in vitro studies and clinical studies have not reached a sufficient number. In this study, the effect of subclinical COHB levels on biomarkers such as TAS, TOS, HIF-1α will be evaluated.

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Detailed Description

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130 patients aged between 18 and 70 with ASA I-II will be included in the study. Patients will be assigned to one of the two study groups in equal numbers using a computerized random numbers table.

In the 1st group (Group DA), the patients will be taken to the operating table. The standard consisting of electrocardiogram (ECG), peripheral oxygen saturation (Spo2), and non-invasive blood pressure will be monitored. Prior to induction, the first blood sample (To) will be drawn for COHB and biochemistry analysis. After induction of anesthesia with propofol and rocuronium, he will be intubated orotracheal. Anesthesia will be maintained with desflurane (MAC:1), oxygen (50%), air (50%). After a high flow phase of 4 l/min for 10 min, the fresh gas flow will be reduced to 0.6 L/min (low flow anaesthesia) and fentanyl and rocuronium will be administered intermittently. Patients will be ventilated with a ring system ventilator with a newly changed absorber at a constant tidal volume (body weight kg x 6 mL) and respiratory rate (12/min). At the 1st hour of low flow anesthesia maintenance, a second blood sample (T1) will be taken for COHB and biochemistry analysis. Patients will be awakened at the end of the case. After the recovery room, it will be transferred to the relevant service. A third blood sample (T2) will be taken from the patients at the postoperative 24th hour in the service for COHB and biochemistry analysis. Blood carboxyhemoglobin (COHB), total antioxidant status (TAS), total oxidant status (TOS), Hypoxia-inducible factor 1α (HIF-1α) values will be calculated.

Patients in group 2 (Group NA) will be taken to the operating table. The standard consisting of electrocardiogram (ECG), peripheral oxygen saturation (Spo2), and non-invasive blood pressure will be monitored. Prior to induction, the first blood sample (To) will be drawn for COHB and biochemistry analysis. After induction of anesthesia with propofol and rocuronium, he will be intubated orotracheal. Anesthesia will be maintained with desflurane (MAC:1), oxygen (50%), air (50%). After a high flow phase of 4 l/min for 10 min, the fresh gas flow will be reduced to 2.0 L/min (normal flow anaesthesia) and fentanyl and rocuronium will be administered intermittently. Patients will be ventilated with a ring system ventilator with a newly changed absorber at a constant tidal volume (body weight kg x 6 mL) and respiratory rate (12/min). A second blood sample (T1) will be taken for COHB and biochemistry analysis at the 1st hour of normal flow anesthesia maintenance. Patients will be awakened at the end of the case. After the recovery room, it will be transferred to the relevant service. A third blood sample (T2) will be taken from the patients at the postoperative 24th hour in the service for COHB and biochemistry analysis. Blood carboxyhemoglobin (COHB), total antioxidant status (TAS), total oxidant status (TOS), Hypoxia-inducible factor 1α (HIF-1α) values will be calculated.

SPSS 25.0 (IBM Corporation, Armonk, New York, United States) program will be used in the statistical analysis of the variables obtained as a result of the study. The conformity of the data to the normal distribution will be evaluated with the Shapiro-Wilk test and the homogeneity of variance with the Levene test. Independent sample t test and Mann Whitney u test will be used to compare two groups with each other according to quantitative data. In order to examine the correlations of the variables with each other, appropriate ones from Pearson Correlation, Kendall's tau-b and Spearman's rho tests will be used considering the distribution of the data. According to the results of the correlation analysis, it will be supported by regression analysis when necessary. Pearson Chi-Square and Fisher Exact tests will be used to compare categorical variables with each other. Quantitative variables will be shown in the tables as mean (standard deviation) and median (Maximum-Minimum), and categorical variables as n(%). Variables will be analyzed at 95% confidence level and p value less than 0.05 will be considered significant.

Conditions

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Carbon Monoxide Exposure

Study Design

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Observational Model Type

COHORT

Study Time Perspective

PROSPECTIVE

Study Groups

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Group DA

In the Group (DA), the standard consisting of electrocardiogram(ECG), peripheral oxygen saturation (Spo2), and non-invasive blood pressure will be monitored.Prior to induction, the first blood sample (To) will be taken for analysis. After induction of anesthesia with propofol and rocuronium, he will be intubated.Anesthesia will be maintained with desflurane (MAC:1), oxygen (50%), air (50%). After a high flow phase of 4 l/min for 10 min, the fresh gas flow will be reduced to 0.6 L/min and fentanyl,rocuronium will be administered intermittently. Patients will be ventilated with a ventilator at a constant tidal volume (kg x 6 mL) and respiratory rate (12/min). At the 1st hour of low flow anesthesia maintenance, a second blood sample (T1) will be taken for analysis. Patients will be awakened at the end of the case. After the recovery room, it will be transferred to the relevant service. A third blood sample (T2) will be taken at the postoperative 24th hour in the service for analysis.

low-flow anesthesia

Intervention Type PROCEDURE

Changes in blood carboxyhemoglobin levels as a result of exposure to rebreathing during low-flow anaesthesia.

Group NA

In the Group (NA),the standard consisting of electrocardiogram(ECG), peripheral oxygen saturation (Spo2),non-invasive blood pressure will be monitored.Prior to induction, the first blood sample (To) will be taken for analysis.After induction of anesthesia with propofol and rocuronium, patients will be intubated. Anesthesia will be maintained with desflurane (MAC:1), oxygen (50%), air (50%). After a high flow phase of 4 l/min for 10 min, the fresh gas flow will be reduced to 2.0 L/min and fentanyl, rocuronium will be administered intermittently. Patients will be ventilated with a ventilator at a constant tidal volume (kg x 6 mL) and respiratory rate (12/min). A second blood sample (T1) will be taken for analysis at the 1st hour of normal flow anesthesia maintenance. Patients will be awakened at the end of the case. After the recovery room, it will be transferred to the relevant service. A third blood sample (T2) will be taken at the postoperative 24th hour in the service for analysis

No interventions assigned to this group

Interventions

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low-flow anesthesia

Changes in blood carboxyhemoglobin levels as a result of exposure to rebreathing during low-flow anaesthesia.

Intervention Type PROCEDURE

Eligibility Criteria

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Inclusion Criteria

* 18-70 years old
* ASA I-II
* none-smoking
* without systemic disease
* elective surgery with general anesthesia

Exclusion Criteria

* over 70 years old
* with cardiovascular disease
* with respiratory system disease
* liver or kidney disease
* pregnant or nursing female patient
* those who do not want to participate
* patient with multi-trauma
* ASA III and above
* emergency surgery
* surgery with blood transfusion
* smokers

Minimum Eligible Age

18 Years

Maximum Eligible Age

80 Years

Eligible Sex

ALL

Accepts Healthy Volunteers

Yes